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引用次数: 1
摘要
研制了一种用于个人采样的气溶胶质量浓度动态测量装置。其原理是对过滤器上的气溶胶取样并监测压降随时间的变化(δ P)。确保δ P = f(过滤器单位面积的颗粒质量)关系的线性关系已经很好地建立起来,就可以推导出浓度的变化。该系统的响应在实验室中进行了验证,在1米(3)通风的外壳内产生3.5微米的氧化铝气溶胶(质量中位数直径)。由于该理论预测系统的质量灵敏度与颗粒直径的平方成反比,因此只能测量到足够细的气溶胶。该系统在电弧焊站附近的机械车间进行了现场测试。由于粒子的亚微米大小,焊接产生的气溶胶确实具有特别好的适应性。尽管存在这种限制,但该设备与其他技术相比具有许多优点:坚固耐用,紧凑,校准可靠,易于使用。
Development of a continuous aerosol mass concentration measurement device.
A dynamic aerosol mass concentration measurement device has been developed for personal sampling. Its principle consists in sampling the aerosol on a filter and monitoring the change of pressure drop over time (Delta P). Ensuring that the linearity of the Delta P = f(mass of particles per unit area of filter) relationship has been well established, the change of concentration can be deduced. The response of the system was validated in the laboratory with a 3.5 microm alumina aerosol (mass median diameter) generated inside a 1-m(3) ventilated enclosure. As the theory predicted that the mass sensitivity of the system would vary inversely with the square of the particle diameter, only sufficiently fine aerosols were able to be measured. The system was tested in the field in a mechanical workshop in the vicinity of an arc-welding station. The aerosol produced by welding is indeed particularly well-adapted due to the sub-micronic size of the particles. The device developed, despite this limitation, has numerous advantages over other techniques: robustness, compactness, reliability of calibration, and ease of use.
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